A switching hinge comprises a hinge housing (6) at which a hinge flap (4) is swivellably disposed, a switching element (2) coupled with the hinge flap (4) being provided, which switching element (2) triggers a switching operation at a built-in switch (7) in a predetermined position of the hinge flap (4). According to the invention, the built-in switch (7) can be adjusted relative to the switching element (2) for adjusting the switching point. Particularly, a precision adjustment can be carried out so that an adaptation to the respective installation situation becomes possible.
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8. A switching hinge, comprising:
a hinge housing including a hinge flap swivellably disposed on the hinge housing;
a switch housing including a built-in switch;
a switching element coupled to the hinge flap, which hinge flap triggers a switching operation at the built-in switch in a predetermined position of the hinge flap;
the built-in switch being adjustable relative to the switching element for adjusting a switching point at which the switching operation occurs;
the built-in switch is held on a film hinge, the film hinge being constructed integrally with the switch housing; and
wherein markings to indicate an adjusting path are provided at the switch housing.
1. A switching hinge, comprising:
a hinge housing including a hinge flap swivellably disposed on the hinge housing;
a switch housing including a built-in switch;
a switching element coupled to the hinge flap, which hinge flap triggers a switching operation at the built-in switch in a predetermined position of the hinge flap;
the built-in switch being adjustable relative to the switching element for adjusting a switching point at which the switching operation occurs;
the built-in switch is held on a film hinge, the film hinge being constructed integrally with the switch housing; and
wherein the built-in switch is configured to be adjusted in opposite directions within the switch housing.
9. A switching hinge, comprising:
a hinge housing including a hinge flap swivellably disposed on the hinge housing;
a switch housing including a built-in switch;
a switching element coupled to the hinge flap, which hinge flap triggers a switching operation at the built-in switch in a predetermined position of the hinge flap;
the built-in switch being adjustable relative to the switching element for adjusting a switching point at which the switching operation occurs;
the built-in switch is held on a film hinge, the film hinge being constructed integrally with the switch housing; and
wherein several contacts are provided to permit different switching points, and by a rotating motion of the hinge flap, the different switching points are triggered in a respective angular position.
2. The switching hinge according to
3. The switching hinge according to
4. The switching hinge according to
5. The switching hinge according to
6. The switching hinge according to
7. The switching hinge according to
10. The switching hinge according to
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The present invention relates to a switching hinge including a hinge housing on which a hinge flap is swivellably disposed. A switching element is coupled to the hinge flap, which switching element triggers a switching operation at a built-in switch in a predetermined position of the hinge flap. The built-in switch is adjustable relative to the switching element to adjust a switch point at which the switching operation occurs.
Switching hinges exist where a switching element is coupled with a hinge flap, so that a switching operation is triggered in a certain position of the hinge flap relative to the hinge housing. Once the switching hinge is mounted on a corresponding component, such as a safety door, etc., the switching point can no longer be changed. Specifically when diverse components are assembled and disassembled for transport, an adaptation to a respective installation situation may be required in order to avoid malfunctioning.
From British Patent Document GB 1 279 381, a switching hinge is known which has a switching element for triggering a switching operation at a certain angular position of a hinge. In this case, the switching element is accommodated as a separate component in the hinge and can be adjusted by a screw for setting the switching point.
The present disclosure relates to a switching hinge which has a simple construction, can be adapted to a respective installation situation and the switching point can be adjusted.
According to the present disclosure, a switching hinge comprises a hinge housing that includes a hinge flap swivellably disposed on the hinge housing. The switching hinges also includes a switch housing having a built-in switch. A switching element is coupled to the hinge flap, which hinge flap triggers a switching operation at the built-in switch in a predetermined position of the hinge flap. The built-in switch is adjustable relative to the switching element for adjusting a switching point at which the switching operation occurs. The built-in switch is held on a film hinge, the film hinge being constructed integrally with the switch housing.
According to the present disclosure, the built-in switch can be adjusted relative to the switching element for adjusting the switching point, so that a triggering of the built-in switch can be adapted to the respective installation situation. In particular, the built-in switch can remain in the mounted position, and the switching point is reached by a corresponding adjustment. For a constructively simple solution, the built-in switch is held on a film hinge which is constructed integrally with the switch housing. Although the built-in switch will then be securely held in the switch housing, it can be swivelled in a simple manner, if required.
According to an embodiment of the present disclosure, the built-in switch is accommodated in a switch housing, and the position of the built-in switch in the switch housing can be changed by adjusting devices. The built-in switch can be arranged to be swivellable about an axis in order to be able to carry out a corresponding precision adjustment.
An adjusting screw is provided for adjusting the built-in switch, so that a continuous adjustment can be carried out. The built-in switch can be adjusted in opposite directions inside the switch housing, so that an adaptation of the switching point can be carried out in both directions. The adjusting range may be limited by stops. As a result, it can be ensured that the precision adjustment can take place only within the range of the necessary or required separation of the respective or chosen built-in switch that is used. That precision adjustment can be, for example, only within a few degrees.
According to an embodiment of the present disclosure, openings for adjusting the adjusting screw are provided at the switch housing. Thus, when the switching hinge is mounted, a corresponding adjustment can be carried out in a simple manner.
In order to be able to estimate the extent of the adjustment, markings may be provided on the switch housing for indicating an adjusting path.
Other aspects of the present disclosure will become apparent from the following descriptions when considered in conjunction with the accompanying drawings.
A switching hinge comprises a hinge housing 6 at which a hinge flap 4 is rotatably fixed. By at least one screw 8, a switch housing 9 is mounted to the hinge housing 6. In the switch housing 9, a built-in switch 7 is arranged which triggers a switching operation at a certain angular position of the hinge flap 4 relative to the hinge housing 6. The hinge housing 6 is provided with slots 12, whereby the hinge housing 6 can be mounted on a component (not shown). Slots 13 for a connection with another component (not shown) are provided on the hinge flap 4.
As illustrated in
For a non-rotatable coupling of the switching element 2 with the hinge flap 4, a connection element 5 is provided on a ring-shaped plastic disk which has a circular outer circumference. The connection element 5 can be clampingly inserted into a receiving device 40 at the hinge flap 4. There is at least one inwardly protruding tooth 41 projecting at the receiving device 40. The connection element 5 is form-lockingly pressed into the receiving device 40, so that a non-rotatable connection is established between the connection element 5 and the hinge flap 4.
An opening 50 in the form of a hexagon is constructed in the connection element 5, and a corresponding hexagonal pin at the switching element 2 engages in the opening 50.
When the hinge flap 4 is swivelled together with a component, a relative movement takes place between the hinge flap 4 and the hinge housing 6. This rotating motion is transmitted by way of the connection element 5 and the switching element 2 until, at a certain angular position, a spring-loaded displaceable contact pin 18, acting at the switching element 2, engages in a receiving device or recess in switching element 2 and form-lockingly actuates electric contacts. As a result, an electric connection is opened or closed at the built-in switch 7. A particular position of the connection element 5 establishes a desired switching point at which a switching operation takes place.
When a user wants to define another desired switching point at the switching hinge, a covering cap 15 can first be removed from the switch housing 9 in order to release the screw 1. Then, the countersunk screw 8 is removed, so that the switch housing 9 can be swivelled and can be demounted from the hinge housing 6. Then the desired switching point can be newly set by exchanging or rotating the connection element 5. An adaptation to a respective built-in situation is thus possible.
As shown in
By the swivelling motion of the built-in switch 7, spring-loaded contact pin or key 18 is moved slightly from a center position in an upward or downward direction, so that its position is changed relative to the switching element 2. At the switching element 2, a recess 92 is provided at an outer circumference, into which recess 92 the spring-loaded key 18 engages for triggering a switching operation. In a certain area, the position of the key 18 can therefore be changed by adjusting screw 11, so that the switching point is changed, which is the result of an interaction of the key 18 with the switching element 2.
The precision adjustment is limited by stops 91 within the switch housing 9. As a result, the adjusting range, shown by markings 171 in
In an embodiment of the present disclosure, the connection element 5 is exchangeably fixed in a receiving device 40 of the hinge flap 4. It is conceivable to provide a projecting pin, for example, tooth 41 at the hinge flap 4 and to construct the receiving device 40 at the switching element 2. Furthermore, other fastening devices can also be provided in order to achieve a non-rotatable connection between the switching element 2 and the hinge flap 4.
Several recesses 92 (see
In an embodiment according to the present disclosure, the built-in switch 7 is accommodated in a switch housing 9 which is fixed to the hinge housing 6. However, it is conceivable to arrange the built-in switch 7 in a modification of hinge housing 6 in order to implement a particularly compact construction, so that the switch housing 9 will not be necessary.
Although the present disclosure has been described and illustrated in detail, it is to be clearly understood that this is done by way of illustration and example only and is not to be taken by way of limitation. The scope of the present disclosure is to be limited only by the terms of the appended claims.
Ulfik, Joachim, Finger, Markus, Pedron, Lothar
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3729603, | |||
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GB1279381, |
Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Sep 19 2006 | ULFIK, JOACHIM | Bernstein AG | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 018337 | /0206 | |
Sep 19 2006 | FINGER, MARKUS | Bernstein AG | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 018337 | /0206 | |
Sep 19 2006 | PEDRON, LOTHAR | Bernstein AG | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 018337 | /0206 | |
Sep 25 2006 | Bernstein AG | (assignment on the face of the patent) | / |
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